Evaluation of global niobium flow modeling and its market forecasting

Mahmoud Bakry; Jinhui Li; Xianlai Zeng

doi:10.1007/s11708-022-0823-y

. 2022 Mar 20:1–8. Online ahead of print. doi: 10.1007/s11708-022-0823-y

Evaluation of global niobium flow modeling and its market forecasting

Mahmoud Bakry ¹, Jinhui Li ¹, Xianlai Zeng ^1,^✉

PMCID: PMC8960084

Abstract

Metal, as the indispensable material, is functioning the society from technology to the environment. Niobium (Nb) is considered a unique earth metal as it is related to many emerging technologies. The increasing economic growth exerts an increasing pressure on supply, which leads to its significance in the economic sector. However, few papers have addressed Nb sustainability, which forms the scope of this paper in order to start the process of Nb market forecasting based on some previous data and some assumptions. Therefore, this paper will discuss different thoughts in material substitution and the substance flow of Nb throughout a static flow using Nb global data to have a better understanding of the process of Nb from production to end of life. This shall lead to the identification of the market needs to determine its growth which is around 2.5% to 3.0%. Moreover, due to China’s huge Nb consumption which comes from the continuous development that is happening over the years, it will also briefly mention the Nb situation as well as its growth which according to statistics will grow steadily till 2030 by a rate of 4.0% to 6.0%. The results show that there should be some enhancement to Nb recycling potentials out of steel scrap. In addition, there should be more involvement of Nb in different industries as this would lead to less-used materials which can be translated to less environmental impact.

Electronic Supplementary Material

Supplementary material is available in the online version of this article at 10.1007/s11708-022-0823-y and is accessible for authorized users.

Keywords: niobium (Nb), sustainability, substance flow nalysis, recycling, industrial ecology

Electronic Supplementary material

11708_2022_823_MOESM1_ESM.pdf^{(133.8KB, pdf)}

Evaluation of global niobium flow modeling and its market forecasting

Acknowledgments

This work was supported by the National Natural Science Foundation of China (Grant No. 92062111) and the National Key R&D Program of China (Grant No. 2019YFC1903711).

Footnotes

Special Issue —Toward Carbon Neutrality: Innovative Energy and Resource Management

References

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Associated Data

This section collects any data citations, data availability statements, or supplementary materials included in this article.

Supplementary Materials

11708_2022_823_MOESM1_ESM.pdf^{(133.8KB, pdf)}

Evaluation of global niobium flow modeling and its market forecasting

[CR1] 1.Deardo A. Niobium in modern steels. International Materials Reviews. 2003;48(6):371–402. doi: 10.1179/095066003225008833. [DOI] [Google Scholar]

[CR2] 2.Solomon J. Significant opportunities to recycle niobium. 2020-6-26, available at website of globe metal

[CR3] 3.Ziolek M. Niobium-containing catalysts —the state of the art. Catalysis Today. 2003;78(1–4):47–64. doi: 10.1016/S0920-5861(02)00340-1. [DOI] [Google Scholar]

[CR4] 4.Metalary. Niobium price 2020. 2021-10-21, available at website of metalary

[CR5] 5.Cripps Z. Niobium: Outlook to 2030 16th edition. 2020-12-14, available at website of Roskill interactive

[CR6] 6.Danilina V, Grigoriev A. Information provision in environmental policy design. Journal of Environmental Informatics. 2020;36(1):1–10. [Google Scholar]

[CR7] 7.Golroudbary R S, Mujkic Z, ElWali M, et al. Study on modeling material flow of niobium. Lappeenranta Finland: Lappeenranta University of Technology; 2017. [Google Scholar]

[CR8] 8.Yiougo L, Spuhler D. Material flow analysis (MFA). 2011, available at website of sswm.info

[CR9] 9.Alves A R R. The evolution of the niobium production in Brazil. Materials Research. 2015;18(1):106–112. doi: 10.1590/1516-1439.276414. [DOI] [Google Scholar]

[CR10] 10.Silva A, Schons E, Barros M, et al. Manufacture and characterization of ferroniobium alloy briquettes. In: International Mining Congress and Exhibition of Turkey, Antalya, Turkey, 2018

[CR11] 11.Statista. Niobium mine production in Brazil. 2021-4-5, available at website of statista

[CR12] 12.Metalary. Live niobium price-niobium pentoxide and ferro niobium news. 2022-2-10, available at website of metalary

[CR13] 13.Cradle Resources Ltd. What is niobium. 2021-9-8, available at website of cradle resources

[CR14] 14.Globe Metals and Mining. Niobium markets. 2021-7-11, available at website of globemm

[CR15] 15.Yan K, Xu J, Gao W, et al. Human perturbation on phosphorus cycles in one of China’s most eutrophicated lakes. Resource, Environment and Sustainability. 2021;4:100026. doi: 10.1016/j.resenv.2021.100026. [DOI] [Google Scholar]

[CR16] 16.Vasconcelos Y. The niobium controversy. 2019-12, available at website of revistapesquisa.fapesp.br

[CR17] 17.Zhang L, Ran W, Jiang S, et al. Understanding consumers’ behavior intention of recycling mobile phone through formal channels in China: the effect of privacy concern. Resources, Environment and Sustainability. 2021;5:100027. doi: 10.1016/j.resenv.2021.100027. [DOI] [Google Scholar]

[CR18] 18.Rahimpour Golroudbary S, Krekhovetckii N, El Wali M, et al. Environmental sustainability of niobium recycling: the case of the automotive industry. Recycling. 2019;4(1):5–13. doi: 10.3390/recycling4010005. [DOI] [Google Scholar]

[CR19] 19.Dufresne C. Niobay metals pre presentation. 2020-8, available at website of niobay metals

[CR20] 20.Mordor Intelligence. Niobium market-growth, trends, COVID-19 impact, and forecasts (2022–2027). 2021-2-13, available at website of mordor intelligence

[CR21] 21.Grill R. Niobium for coins. 1999, available at website of tanb.org

[CR22] 22.Livingstone S. A review of: “The Early Transition Metals D. L. Kepert. Academic Press, London and New York. 499pp. $25. Synthesis and Reactivity in Inorganic and Metal-Organic Chemistry. 1973;3(4):423–424. doi: 10.1080/00945717308057290. [DOI] [Google Scholar]

[CR23] 23.Ward K, Varda D, Epstein D, et al. Institutional factors and processes in interagency collaboration: the case of FEMA corps. American Review of Public Administration. 2018;48(8):852–871. doi: 10.1177/0275074017745354. [DOI] [Google Scholar]

[CR24] 24.Marchese D, Reynolds E, Bates M, et al. Resilience and sustainability: similarities and differences in environmental management applications. Science of the Total Environment. 2018;613–614:1275–1283. doi: 10.1016/j.scitotenv.2017.09.086. [DOI] [PubMed] [Google Scholar]

[CR25] 25.Renneberg T. Towards a circular economy of critical raw materials: the case of niobium. Enschede: University of Twente; 2021. [Google Scholar]

[CR26] 26.Liang Y, Song Q, Wu N, et al. Repercussions of COVID-19 pandemic on solid waste generation and management strategies. Frontiers of Environmental Science & Engineering. 2021;15(6):115. doi: 10.1007/s11783-021-1407-5. [DOI] [PMC free article] [PubMed] [Google Scholar]

[CR27] 27.Baktash A, Amiri O, Saadat M. High efficient perovskite solar cells base on niobium doped TiO2 as a buffer layer. Nanostructures. 2020;10(1):119–127. [Google Scholar]

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Evaluation of global niobium flow modeling and its market forecasting

Mahmoud Bakry

Jinhui Li

Xianlai Zeng

Abstract

Electronic Supplementary Material

Electronic Supplementary material

Acknowledgments

Footnotes

References

Associated Data

Supplementary Materials

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Evaluation of global niobium flow modeling and its market forecasting

Mahmoud Bakry

Jinhui Li

Xianlai Zeng

Abstract

Electronic Supplementary Material

Electronic Supplementary material

Acknowledgments

Footnotes

References

Associated Data

Supplementary Materials

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